Irregular sleeping patterns can lead to cancer

It is thought to be the first study to unequivocally show a link between cancer and irregular sleeping patternsMeditationMusic.net

A new study has found that irregular sleeping patterns can lead to cancer.

After testing on mice, researchers found that inconsistent sleeping has been shown to "unequivocally" lead to cancer.

The study lends support to the argument that shift work is detrimental to one's health.

It found that women with a family history of breast cancer shouldn't work shifts. The scientists also noticed that mice who were forced into irregular sleeping patterns were, on average, 20% heavier than their peers despite eating the same amount.

The mice that had their body clock delayed by half a day every week for a year had tumours after 50 weeks.

It also says that disturbing the circadian rhythm – the body's natural clock – increases the chances of contracting a disease.

The report, published on 20 July 2015 in Current Biology, states: "To our knowledge, this is the first study that unequivocally shows a link between chronic LD [light-dark] inversions and breast cancer development."

One of the researchers, Gijsbetus van der Horst of the Erasmus University Medical Center in the Netherlands, said: "If you had a situation where a family is at risk for breast cancer, I would certainly advise those people not to work as a flight attendant or to do shift work."

What is the natural body clock?

Stuart Peirson, associate professor at Oxford University and part of the Sleep and Circadian Neuroscience Institute: "We didn't know a great deal about the basic mechanism of the circadian clock until the 1960s. In the 1960s, they identified that it was a part of our brain and part of the hypothalamus called the suprachiasmatic nuclei (SCN) that forms the master clock in the brain, and if that's damaged then we completely lose our rhythmic behaviour.

"But the actual mechanism of the clock wasn't shown until the late 1990s where it was discovered that, [even if separated from the vast SCN network], the individual neurons of the master clock in the brain are all capable of telling time."